DE102018212237A1 - Elastic shaft seal - Google Patents

Abstract

A seal assembly configured to be mounted between a rotatable shaft and a housing has first and second sides axially spaced from the first side and includes an annular seal carrier having a first end on the first side of the first side A seal assembly and a second end axially spaced from the first end, at least one seal body adapted to form a seal between the shaft and the seal carrier, the at least one seal body contacting the seal carrier at a joint, and an elastic annular one Body which is mounted between the seal carrier and the housing. All portions of the elastic annular body are disposed radially outward of the joint.

Description

TECHNICAL ENVIRONMENT

The present invention is directed to an elastic seal assembly for forming a seal between a rotatable shaft and an opening in a housing, the seal assembly preventing lubricant from escaping between the shaft and the housing opening, and more particularly to an elastic seal assembly designed to receive radial and axial movement between the rotatable shaft and the opening in the housing.

BACKGROUND

It is known to provide seals between a rotatable shaft and an aperture through which the shaft passes to hold a lubricant such as oil or grease on one side of the seal and to prevent the lubricant from leaking to the other side of the seal ,

1. 1. Eine Radiallippenwellendichtung, die eine Fluorgummilippe aufweist, die in dichtendem Kontakt gegen eine Welle gehalten wird, indem eine Feder verwendet wird, und
2. 2. eine Polytetrafluoroethylen (PTFE) Dichtung, die eine PTFE-Lippe aufweist, die gegen die Welle mittels eines flexiblen Abschnitts des Dichtkörpers gehalten wird.

In many applications, the dimensions and orientation of the shaft and the opening are relatively accurate, and in these cases, the seal between the shaft and the housing opening may be implemented via a conventional oil seal. There are two types of conventional oil seals:

1. A radial lip shaft seal having a fluororubber lip which is held in sealing contact against a shaft by using a spring, and
2. 2. a polytetrafluoroethylene (PTFE) seal having a PTFE lip which is held against the shaft by means of a flexible portion of the sealing body.

However, conventional seals can only tolerate a certain amount of shaft-to-aperture misalignment, both when the shaft is stationary and when it is rotating without allowing the lubricant to escape through the seal.

In some applications, the amount of shaft-to-aperture misalignment is greater than what can be tolerated by conventional shaft seals. It is therefore desirable to provide an improved seal assembly that can tolerate relatively large misalignments and / or deviations between a rotatable shaft and an aperture or housing.

SUMMARY

These and other problems are addressed by the embodiments of the present disclosure, a first aspect of which includes a seal assembly configured to be mounted between a rotatable shaft and a housing, the housing having a first side and a second side axially is spaced from the first side has. The seal assembly includes an annular seal carrier having a first end on the first side of the seal assembly and a second end axially spaced from the first end, and at least one seal body configured to form a seal between the shaft and the seal carrier. wherein the at least one sealing body contacts the seal carrier at a connection point. The assembly also includes an elastic annular body mounted between the seal carrier and the housing. All parts of the elastic seal body are arranged radially outside the joint.

Another aspect of the disclosure includes a seal assembly adapted to be mounted between a shaft and a housing, the seal assembly having a first side and a second side axially spaced from the first side. The seal assembly includes an annular seal carrier having a first end on the first side of the seal assembly, and a second end axially spaced from the first end, and at least one A seal body adapted to form a seal between the shaft and the seal carrier. The at least one sealing body contacts the seal carrier at a connection point. The assembly also includes an elastic annular body mounted between the seal carrier and the housing. The housing has a radially inwardly projecting inner flange disposed such that the resilient annular body is disposed between the first side of the seal assembly and the inner flange, and the inner flange includes at least one opening having a circumferential width. The annular seal carrier also includes at least one projection extending into the at least one aperture, and the at least one projection has a circumferential width that is less than the circumferential width of the at least one aperture.

Another aspect of the disclosure includes a seal assembly adapted to be mounted between a shaft and a housing and having a first side and a second side axially spaced from the first side. The seal assembly includes an annular seal carrier having a first end on the first side of the seal assembly and a second end axially spaced from the first end and at least one seal body configured to form a seal between the shaft and the seal carrier. The at least one sealing body contacts the seal carrier at a connection point. The assembly also includes a shock absorbing means between the annular seal carrier and the housing for resiliently receiving radial and axial displacement of the shaft relative to the housing.

list of figures

• 1 ist eine Schnittansicht der Dichtungsanordnung gemäß einem Ausführungsbeispiel der vorliegenden Offenbarung, die zwischen einer rotierbaren Welle und einem Gehäuse angebracht ist.
• 2 ist eine perspektivische Explosionsansicht eines Teils der Dichtungsanordnung von 1.
• 3 ist eine Schnittansicht einer Dichtungsanordnung gemäß einem zweiten Ausführungsbeispiel der vorliegenden Offenbarung, die zwischen einer rotierbaren Welle und einem Gehäuse angebracht ist.
• 4 ist eine Schnittansicht einer Dichtungsanordnung gemäß einem dritten Ausfuhrungsbeispiel der vorliegenden Offenbarung, die zwischen einer rotierbaren Welle und einem Gehäuse angebracht ist.

These and other aspects and features of the disclosure will be better understood after a reading of the following detailed description, taken in conjunction with the annexed drawings, in which:

• 1 FIG. 10 is a sectional view of the seal assembly according to an embodiment of the present disclosure mounted between a rotatable shaft and a housing. FIG.
• 2 is an exploded perspective view of a part of the seal assembly of 1 ,
• 3 FIG. 10 is a sectional view of a seal assembly according to a second embodiment of the present disclosure, which is mounted between a rotatable shaft and a housing. FIG.
• 4 FIG. 10 is a sectional view of a seal assembly according to a third embodiment of the present disclosure, which is mounted between a rotatable shaft and a housing. FIG.

DETAILED DESCRIPTION

Referring now to the drawings, in which the drawings are only for purposes of illustration of embodiments of the invention, and not for the purpose of limiting the same, shows 1 a seal arrangement 10 between a wave 12 and a housing 14 is appropriate. The seal assembly has a first page 16 (on the left side of the 1 ) and a second page 18 (on the right side of 1 ).

The housing 14 includes a first and a second annular outer housing member 20 . 21 , each having an axially outer, radially inwardly directed flange 22 . 23 exhibit. The outer housing elements 20 and 21 are over an O-ring 24 separated and together by an annular inner housing element 26 connected. A central reference plane 27 passes through the O-ring 24 and splits the case 14 and the seal assembly 10 in two non-identical halves.

The seal arrangement 10 includes a first seal carrier 28 that is radial between the shaft 12 and the housing 14 is arranged, and the first seal carrier 28 has a first end 30 (This may also be referred to as an axial outer end) on the first side 16 the seal arrangement 10 and a second end 32 (which may also be referred to as an axially inner end), that of the central reference plane 27 opposite, and between the first page 16 the seal arrangement 10 and the central reference plane 27 is arranged. The first seal carrier 28 also includes a radially outwardly extending flange 34 at its first end 30 axially on the radially inwardly directed flange 22 the first outer housing element 20 on the first page 16 the seal arrangement 10 is aligned. The flange 34 of the first seal carrier 28 is from the flange 22 of the first housing element 20 through a gap 36 separated. The first seal carrier 28 also includes a cantilever 38 that works best in 2 seen axially from the first seal carrier 28 towards the second page 18 the seal arrangement 10 cantilevered, and by the central reference plane 27 runs.

The seal arrangement 10 also has a second seal carrier 40 on, which is essentially a mirror image of the first seal carrier 28 is, but in the seal arrangement 10 is installed so that it is 45 ° to the position of the first seal assembly 28 is rotated. Specifically, the second seal carrier 40 radially between the shaft 12 and the housing 14 arranged, and includes a first end 42 (which may be referred to as an axially outer end) on the second side 18 the seal arrangement 10 and a second end 44 (which may be referred to as an axially inner end), that of the central reference plane 27 is opposite and between the second page 18 the seal arrangement 10 and the central reference plane 27 is arranged. The second seal carrier 40 includes a radially outwardly extending flange 46 at its first end 42 axially on the radially inwardly directed flange 23 the second outer housing element 21 on the second page 18 the seal arrangement 10 is aligned, and the flange 46 of the second seal carrier 40 is from the flange 23 the second outer housing element 21 through a gap 48 separated. The second seal carrier 40 also includes a projection (not shown) extending from the second seal carrier 40 towards the first page 16 the seal assembly protrudes, and through the central reference plane 27 runs.

A first sealing body 50 is with the radial inside of the first seal carrier 28 at a junction 52 connected, wherein the sealing body 50 a relative in this case inflexible element is, the first and second lips 54 which is on the outer surface of the shaft 12 walk along. A second sealing body 56 is with the radially inner side of the second seal carrier 40 at a junction 58 connected and has a sealing lip 60 up against the wave 12 by means of a Garter spring 62 is biased, with the sealing lip 60 with the second seal carrier 40 via an intermediate connector 64 connected is. The specific configurations of the seal bodies, such as the first seal body 50 and the second seal body 56 , will be based on the environment in which the seal assembly 10 will be used, and the first and second seal body 50 . 56 may be identical or may have a shape different from what is disclosed in this embodiment without departing from the scope of the present disclosure.

The seal arrangement 10 also includes a bracket 66 holding a first thigh 68 has that with the inner side of the inner housing element 26 connected, and a second leg 70 that's different from the first thigh 68 at a right angle and radially towards the shaft 12 extends. The central reference plane 27 is in and parallel to the second leg 70 the clamp arranged. The second leg 70 includes a plurality of circumferentially spaced openings 72 extending radially in the direction of the shaft 12 to open. The projections 38 of the first seal carrier 28 extend into every other of the openings 72 , and the projections of the second seal carrier 40 extend into the remaining alternating openings 72 , Importantly, the circumferential width of the openings 72 a bit larger than the circumferential width of the overhangs 38 ,

A first elastic body 74 is between the inner housing member 26 and the radially outer side of the first seal carrier 28 connected, and a second elastic body 76 is between the inner housing member 26 and the radially outer side of the second seal carrier 40 connected. The first and second elastic bodies 74 . 76 are preferably formed of a rubber which is suitable to the conditions to which the sealing arrangement 10 will be exposed to resist; however, the invention is not limited to a rubber-elastic body, and any material that provides suitable elasticity may be used. Since the first and the second elastic body 74 . 76 is identical, even if they are incorporated in a mirror image orientation, hereinafter only the first elastic body 74 described here.

The first elastic body 74 is annular and includes a C-shaped (in cross section) section 78 comprising an annular, axially outwardly facing channel 80 essentially defined with the gap 48 between the flange 34 of the first seal carrier 28 and the flange 22 the first outer annular housing member 20 is aligned. A first portion of the first elastic body 74 lies on the flange 22 the first annular outer housing member 20 and a second portion of the first elastic body 74 lies on the flange 34 of the first seal carrier 28 on, and those flanges 22 . 34 therefore limit the axial movement of the first elastic body 74 and help that the first elastic body 74 is prevented from the seal assembly 10 to fall. An extension 82 extends axially inward from the C-shaped section 78 , where the extension 82 has a radial thickness that is less than the radial thickness of the first elastic body 74 at the C-shaped section 78 , and the radial thickness of the extension 82 tapers in the direction of the central reference plane 27 ,

The first elastic body 74 and the second elastic body 76 Serve as a shock absorber to prevent movement or misalignment between the shaft 12 and the housing 14 take. This is true when a relatively rigid, non-compressible seal body, such as the first seal body 50 , between the first seal carrier 28 and the wave 12 is arranged, and when a relatively flexible sealing body, such as the second sealing body 56 , between the second seal carrier 40 and the wave 12 is arranged, and the shock absorbing function of the first and second elastic body 74 . 76 it the first and second sealing body 50 . 56 allows to carry out their corresponding sealing functions, even if the shaft 12 not exactly axially on the housing 14 is aligned, and / or when the shaft 12 displaced radially during operation. In other words, the first and second elastic bodies allow 74 . 76 greater deviations between the shaft 12 and the housing 14 than would otherwise be possible if the first and second sealing bodies 50 . 56 without required modifications to the first and second seal bodies 50 . 56 wherein the seal bodies are optimized for use as shaft seals between shafts and housings which are precisely aligned with each other.

Furthermore, the projections interact 38 of the first seal carrier 28 and the projections of the second seal carrier 40 with the openings 72 in the second leg 70 the bracket 66 to provide relative rotation between the first seal body 28 and the housing 14 and between the second seal carrier 40 and the housing 14 to prevent. That is, while the circumferential width of the openings 72 greater than the circumferential width of the projections 38 . 49 , contact the overhangs 38 the ends of the openings 72 , and prevent further relative rotation of the first seal carrier 28 and the housing 14 when the first seal carrier 28 relative to the housing 14 rotated too far. The use of the clip 66 and the overhangs 38 is not required for internals where it is unlikely that there will be relative rotation between the seal carriers 28 . 14 and the housing 14 will occur. Nevertheless, the overhang limit 38 that with the openings 72 interact, a relative rotation between the first and second seal carrier 28 . 14 and the housing 14 What the first and the second elastic body 74 . 76 could damage.

Since the first and the second elastic body 74 . 76 Modular, they can be used to perform a shock absorber function, regardless of the type of seal body, which is actually a seal with the shaft 12 forms. For example, shows 3 an embodiment of a seal assembly 10 ' that has a third seal body 84 between the first seal carrier 28 and the wave 12 having. While it is structurally different also first seal body 50 of the 1 , can be the same first elastic body 74 used to the shock absorber function for this third seal body 84 provide.

Similar shows 4 a fourth sealing arrangement 10 " that has a fourth sealing body 86 comprising, in this case, two radial inner bodies 88 is formed, the press-fitting on the shaft 12 are arranged, and an outer body 19 , which is a labyrinth seal with the radially inner bodies 88 forms. This seal body 86 is achieved by providing the first elastic body 74 also helped, despite potential misalignments between the shaft 12 and the housing 14 to work reasonably. In the case of this fourth seal arrangement 10 " is only the first elastic element 74 available. Also the flange 34 of the first seal carrier 28 is axially inwardly of the flange in this embodiment 22 the first annular outer housing member 20 arranged.

The present invention has been described with the help of some preferred embodiments; however, modifications and additions to these embodiments will become apparent to those skilled in the art upon reading the foregoing description. It is intended that all such modifications and additions to a part of the invention to the extent thereof fall within the scope of the several claims appended hereto.

Claims (10)

A seal assembly adapted to be mounted between a rotatable shaft and a housing, the seal assembly having first and second sides axially spaced from the first side, the seal assembly comprising: an annular seal carrier having a first end on the first side of the seal assembly and a second end axially spaced from the first end; at least one seal body adapted to form a seal between the shaft and the seal carrier, the at least one seal body contacting the seal carrier at a joint; and an elastic annular body mounted between the seal carrier and the housing, wherein all portions of the elastic annular body are disposed radially outward of the joint. Seal arrangement according to Claim 1 wherein the resilient annular body has an axially facing channel that opens toward the first side of the seal assembly. Seal arrangement according to Claim 2 wherein the first end of the seal carrier includes a radial flange that cantilevers away from the shaft, and wherein a first portion of the resilient annular body abuts the flange of the seal carrier. Seal arrangement according to Claim 3 wherein the housing has a radial side flange on the first side of the seal assembly that cantilevers toward the shaft, and a second portion of the resilient annular body abuts the side flange of the housing. Seal arrangement according to Claim 4 wherein the side flange of the housing is radially spaced from the flange of the seal carrier by a width across a radial gap, and wherein a radial thickness of the elastic annular body is greater than the width. Seal arrangement according to Claim 5 wherein no portion of the resilient annular body projects axially outwardly of the housing. Seal arrangement according to Claim 2 wherein the first end of the seal carrier is spaced from the housing by an annular gap having a width, and wherein a radial thickness of the elastic annular body is greater than the width. Seal arrangement according to Claim 2 wherein the housing has a radially inwardly projecting inner flange disposed such that the resilient annular body is disposed between the first side of the seal assembly and the inner flange, the inner flange having at least one radial opening with a circumferential width; wherein the annular seal carrier has at least one protrusion extending into at least one radial opening, wherein the at least one protrusion has a circumferential width that is smaller than the circumferential width of the at least one opening. Seal arrangement according to Claim 6 wherein the housing has a radially inwardly projecting inner flange disposed such that the resilient annular body is disposed between the first side of the seal assembly and the inner flange, the inner flange having at least one radial opening with a circumferential width; wherein the annular seal carrier comprises at least one protrusion extending into the at least one radial opening, the at least one protrusion having a circumferential width that is smaller than the circumferential width of the at least one opening. Seal arrangement according to Claim 1 wherein an axial width of a radially innermost portion of the elastic body is greater than an axial width of a radially outermost portion of the elastic body.

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